eBee X - senseFly
Transcript of eBee X - senseFly
eBee XMap without limits
You don’t compromise in the field - neither should your drone.The eBee X is our most advanced fixed-wing drone that’s designed to meet all your surveying and mapping needs. Whether your project site is small or vast, straightforward or complex, the eBee X goes the distance while helping you boost the quality, efficiency and safety of your data collection.
“I immediately felt comfortable flying the eBee X andthe senseFly Aeria X is a phenomenal mapping camera. As for that material on the body,I can’t believe how strong that stuff is!”
Scott Hiebert, CEO, Green Aero Tech
Unmatched versatilityCompatible with more than seven sensors, eBee X is capable of getting the job done no matter the requirements.
Lightweight and durableDesigned to operate in the harshest conditions, thanks to its optimized airframe and ultra-tough under-body skin.
Safe and easy to use Simply plan your mission. Launch the drone and collect critical project data in minutes.
Up to 90 minutes flight time*Capture more - efficiently cover up to 500 ha (1,235 ac) while flying at 400 ft.
Down to 1.5 cm high-precision accuracyAvailable RTK/PPK allows you to achieve the absolute accuracyyour project requires, without GCPs.
eBee X
*Referenced flight time achieved with endurance battery and S.O.D.A. sensor.
SUITSEVERYMAPPING JOB
From surveying mines and complex construction sites to crop health analysis and disaster response, the eBee X is suited for any job thanks to its wide-range of groundbreaking, interchangeable cameras.
For those who demand the highest quality RGB outputs.The senseFly Aeria X is a compact photogrammetry powerhouse. Aeria X
This multispectral crop camera captures imagery across four spectral bands, plus RGB. It features automatic radiometric calibration for consistent measurements and is RTK/PPK compatible for precise georeferenced results.
Sequoia+
Light, robust and efficient. The first camera built specifically for professional drone photogrammetry. Offers the greatest flight time.S.O.D.A.
Generate stunning 3D reconstruction or increase your coverage to 500 ha with this unique photogrammetry sensor that changes orientation during flight to capture nadir and oblique images.
S.O.D.A. 3D
Duet T Create high-resolution, geo-accurate thermal maps, reliably, on demand.
The MicaSense RedEdge-MX is a rugged and professional multispectral sensor. It captures the spectral bands required for basic crop health indexes and additional bands needed for advanced analytics.
RedEdge-MX
senseFly Duet M is an innovative dual-purpose RGB and multispectral mapping camera. Use it to create geo-accurate multispectral maps and digital surface models quickly and easily.
Duet M
Learn more about our camera on our website www.sensefly.com/cameras
“A drone’s flight management software defines your experience—if this is complicated or confusing, operations can quickly become a chore. eMotion is different: it’s advanced, scalable drone software that anyone can use.”
Scott Hiebert, CEO, Green Aero Tech
With eMotion, flights are built using mission blocks. Just choose your block, highlight the region you want to map, define key settings, and eMotion auto-generates your drone’s flight plan. Multi-flight missions are supported and you can activate/import elevation data for even safer, terrain-accurate flights.
Upload your flight plan wirelessly to your drone. After a simple hand launch, your eBee X drone will then fly, capture images and land by itself.
eMotion’s built-in Flight Data Manager automatically handles the georeferencing & preparation of images required for post-processing in software such as Pix4Dmapper.
Version 3 | Compatible with Windows 8 and 10 | 64-bit
Beginner-friendly, yet packed with advanced features to tackle the toughest jobs, our eMotion flight planning software optimizes every step, helping to get your eBee X in the air quickly and with ease, so you can focus on what’s important - collecting and analyzing site-critical geospatial data.
How it works
Processed with Pix4D
Pix4Dmapper/Pix4DCloud/Pix4Dmatic/Pix4Dfields, Agisoft PhotoScan, Esri Drone2Map, DroneDeploy, Trimble Business Center and Bentley ContextCapture
Compatible photogrammetry software
Reduce downtime and maintenance costs
Autopilot Stack
Lower Body
Upper Body
The eBee X was designed to reduce both delays and repairs thanks to its modular design that lets you swap out parts, as needed.
Pitot Tube
Payloads
Clipped Wings
Maintenance made easy Get your senseFly drone serviced locally, thanks to our global network of authorized service centers.
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All you need to survey with your eBee X.On your back.
The eBee X backpack is a smart and durable way to carry everything you need to transport your new senseFly drone into and out of the field.
All your gear in one spot Safely store and transport everything you need to operate your eBee X.
Lightweight and durableComes with a rain cover to ensure your drone stays protected from the elements.
Laptop pocket The eBee X series backpack features a helpful 45 cm x 45 cm (17.7 in) laptop pocket
Comfort and security Ergonomic and adjustable straps help keep you comfortablewhile transporting your drone.
The senseFly eBee X comes with...
1x eBee X Drone
2x Lithium-Polymer Standard Batteries
1x Spare Pitot Kit 1x USB Ground Modem
1x Backpack
2x Spare Propellers 10x Spare Propelller attachment rubber
bands
1x Lithium-Polymer Battery Charger
Go further, fly longerwith senseFly accessories
1x USB CableTo connect your
computer to the drone and some cameras
GeoBaseEnable high-
accuracy workflows with this plug-
and-play GNSS instrument
RTK / PPK Activation Achieve absolute
accuracy of down to 1.5 cm (0.6 in) with
available RTK/PPK
Certified Operator Programwww.senseflyacademy.com
Endurance ExtensionFly up to 90 minutes
in a single flight (Endurance Battery
required)
Hard CaseFor extra protection in
harsh environments
Extended Warranty 1-year warranty
extension
USB PingView live air traffic
data directly within eMotion
Remote ControlOperate your eBee X drone manually
with the available remote control
Spare Pitot Pro KitContains 3 spare pitot tubes.
The pitot tube is used by the eBee X to measure wind
speed and direction for course correction as well as landing
optimization
Endurance Battery Available Endurance Batteries allow for
flight times of up to 90 minutes
Radio Tracker Safeguard against
unexpected aircraft signal loss while flying in
high winds, mountainous areas or very large areas
out of line of sight
Accuracy is the measure of success.
Get the most out of eBee X with active RTK/PPK
While laying ground control points (GCPs) has been a necessary step in drone surveying workflows from the beginning, advancements in GNSS technology have led to the evolution of real-time kinematic (RTK) and post-processing kinematic (PPK) methods. Each of these methods have their own benefits and can improve drone pilot workflows. The following is a quick look at the use of GCPs and the added benefit of active RTK/PPK.
Ground Control Points (GCPs)
A Ground Control Point is a location or object on the ground that has precisely known coordinates. GCPs are used to accurately geo-reference and align projects from relative accuracy—one to two meters—to absolute accuracy—two to five centimeters.
This method has been used for years and trusted to consistently produce a high level of precision and overall accuracy. In addition, GCPs allow the production of defensible quality report to prove the validity of technology and are used for consistent ground truthing of a project’s accuracy.
There are some downsides however, as GCPs can take as much as four timeslonger to setup in comparison to RTK and large worksites may require an entire crew to set points. This can be a dangerous endeavor in certain environments and may require additional equipment including a GPS rover, base, VRS network license in addition to the spray paint and targets.
GCPs have been a proven method of accuracy for years, but with safer and faster methods available, it should be used only when RTK and PPK are not possible.
Real-Time Kinematic (RTK) Real-time kinematic is a technique used to enhance the precision of position data derived from satellite-based positioning systems, which relies on a single reference station or interpolated virtual station to correct geotagged locations while in flight. In other words, RTK is a correction method that enhances GNSS precision.
RTK is advantageous for many surveying professionals because it increases safety. The technique eliminates the need for teams to maneuver through dangerous terrain to set GCPs while also efficiently saving time and productivity. RTK provides corrections to the drone onsite and is ideal for geo-tagging in absolute accuracy throughout flights in real-time. No GNSS post-processing is necessary with real-time correction.
This technique does require a base station and a consistent connection to process data in real-time. While this extra piece of equipment provides the benefit of increased accuracy, it also has a moderate possibility of malfunctioning.
The RTK methods work well in flat terrain where trees or mountains won’t get in the way of the communication signal. RTK is restricted by the power ofground and air communication with the drone. If there’s more than three kilometers between the drone and the ground station, or if there are obstructions such as trees or mountains, there’s a chance it will lose signal.
As an operational best practice, it’s ideal to use RTK on flights in open terrain and within two or three kilometers of the ground station to maintain the communications link. These flights can deliver highly accurate results without the need for using GCPs. This is an extremely helpful advantage for land surveyors working in dense vegetation, crops and other hard to distinguish terrain.
Post-Processing Kinematic (PPK)
An alternative method to RTK is post-processing kinematic. This kinematic technique corrects geotag accuracy after capturing and uploading drone data. The data is corrected in the flight data manager and then processed in the cloud. PPK also offers a safety advantage because similar to RTK, the technique eliminates the need for teams to maneuver through dangerous terrain to set GCPs. Also, there’s an even greater timesavings in comparison to RTK-to-GCP because less time is spent on-site preparing the RTK connection.
Setup is easier because no cable or Bluetooth connection is required with thebase station. PPK is more dependable than RTK because it does not depend on signal strength or GNSS information from the base station in real-time.
This method offers more flexibility in flight since a connection isn’t required for data capture however, additionalprocessing time will be needed post-flight to georeference the data. The PPK method is ideal for longer flights, especially BVLOS missions. The longer the flight, the greater chance there is of losing signal to the connection needed for RTK.
In Summary
When considering factors such as ease of use, time and expense, the advantages of an RTK/PPK-enabled drone become more apparent. Difficult terrain, unreachable spots and safety concerns can be deterrents for using GCPs, not to mention the amount of time it could take to plan and measure each. The integration of GNSS technology within the drone industry has helped improvethe workflow of drone pilots by making mapping missions more accurate, efficient, cost-effective and —most importantly—safe.
A surveyor’s job is to capture accurate data. With boots on the ground, this responsibility is almost entirely up to the surveyor and their level of expertise with the equipment and jobsite. The eBee X is an advanced drone platform that makes your surveying process faster, safer and more efficient.
Coverage & accuracy
Nominal coverage at 122 m (400 ft)
Max. nominal coverage at 122 m (400 ft)
Ground sampling distance at 122 m (400 ft)
Lowest ground sampling distance
Absolute X, Y, Z accuracy (RTK/PPK activated)
220 ha (550 ac), with senseFly S.O.D.A. and withoutEndurance Extension
500 ha (1,235 ac), with senseFly S.O.D.A. 3D and withEndurance Extension
2.5 cm/px (1.0 in/px), with senseFly Aeria X
1,0 cm/px (0.4 in/px) with senseFly Aeria X
1.5 cm (0.6 in)
Flight performance
Cruise speed
Max wind resistance
Landing type
Service temperature
Humidity
Ground avoidance
40-110 km/h (11-30 m/s or 25-68 mph)
Up to 46 km/h (12.8 m/s or 28.6 mph)
Linear landing (5 m/16.4 ft accuracy in 20° angle cone)
-15° to 40°C *
Light rain resistance
Yes - LiDAR (range 120m)
senseFly S.O.D.A. & S.O.D.A. Corridor
senseFly S.O.D.A. 3D
senseFly Aeria X
senseFly Duet T
senseFly Duet M
MicaSense RedEdge MX
Parrot Sequoia
Camera
Flight time in minutes
0 10’ 20’ 30’ 40’ 50’ 60’ 70’ 80’ 90’
Endurance BatteryStandard Battery
Endurance BatteryStandard Battery
Endurance BatteryStandard Battery
Endurance BatteryStandard Battery
Endurance BatteryStandard Battery
Endurance BatteryStandard Battery
Maintenance and service
Spare Parts Available
Modular Repair
Service
Pitot Tubes, Wings, Propellers and vertical surfaces
Auto Pilot Stack, Upper Body and Lower Body
Every 100 flight hours
*Working above 35°C / 95°F requires to protect the drone from the sun while on the ground
Battery
Power
Voltage
Number of cells
Type
Energy
Weight
3700 mAh
15.2V
4 Cell
LiHV
56.24Wh
330g
EnduranceStandard
4900 mAh
15.2V
4 Cell
LiHV
74.48Wh
420g
Radio Link
Certification
Range
Frequency
Encryption AES 254
EIRP
CE or FCC
3 km nominal (up to 8 km) / 1.9 mi (up to 5 mi)
2.400 - 2.4835 GHz
Available
CE/JP 20.0 dBm max
FCC 22.5 dBm max
eBee X
Wingspan
Material
Underbody skin
Weight (Empty)
Max Take-off weight
Backpack dimension
Motor
Detachable wing
Empty backpack weight
116 cm (45.7 in)
Expanded Polypropylene (EPP)
Curv® Polypropylene thermoplastic composite
0.8 kg
1.6 kg
75 x 50 x 29 cm (29.5 x 19.7 x 11.4 in)
Low-noise, brushless, electric
Yes
4.6 kg
High Precision
Upgradable on demand
RTK
PPK
GNSS
Yes
Virtual Base Station, Base Station Unknown point, Base Station Known point
Yes
GPS+GLONASS
How long can you fly with your eBee X?
The above figures represent optimal flight conditions. It is not representative of all flight times and will vary depending on flight conditions. Also note that the condition of the pitot tube can influence flight time. Flights longer than 60 minutes require Endurance Activation.
**Max. coverage figures based on eBee X flight over flat terrain, in optimal conditions, using a senseFly S.O.D.A. 3D camera.
The drone is performing its mission and capturing images
15% and below is enough to return Home and land.
Below 10%, it is no longer possible to continue the mission. The drone returns home to land.
Mission Low endurance Low battery
Automatic safe return when the battery is low
10% 0%100% 15%
Standard BatteryEndurance Battery
Hardware Datasheet
You don’t compromise in the field - neither should your drone.
The eBee X is our most advanced fixed-wing drone that’s designed to meet all your surveying and mapping needs. Whether your project site is small or vast, straightforward or complex, the eBee X goes the distance while helping you
boost the quality, efficiency and safety of your data collection.
senseFly SA Route de Genève 38
1033 Cheseaux-sur-LausanneSwitzerland
+41 21 552 04 40
senseFly Inc. RaleighNorth Carolina
+1 919 917 9602
senseFly believes in using technology to make work safer and more efficient. Our proven drone solutions simplify the collection and analysis of geospatial data, allowing professionals in surveying, mining, agriculture, engineering, environmental monitoring and humanitarian aid to make better decisions, faster. senseFly is a commercial drone subsidiary of Parrot Group.
[email protected] EN V1 2021